TWM577452U - Electricity generation device by harnessing tidal power - Google Patents

Abstract

A seawater power generation device comprises: a water inlet having a first water inlet end and a first water outlet end, wherein the first water inlet end is disposed below the sea level height, allowing sea water to flow into the water inlet channel, and the water inlet channel is first The water inlet end is inclined downwardly to the first water outlet end at a predetermined angle and may be provided with at least one water wheel; the water inlet is connected to a hydropower module, and the hydropower module is located at a depth of about 400 to 500 meters; and One end of the waterway, the water outlet is combined with the hydroelectric power module, and the other end of the water outlet discharges the seawater to the ground level. The water outlet can be extended stepwise and matched with the waterwheel and the hoist to raise the seawater to the other end, or the diameter of the water outlet. It is tapered from one end of the hydropower module to the other end; the third outlet can be directly discharged or a marine aquaculture facility. This creation can be placed in a factory located underground.

Description

Seawater power plant

This creation is about a power plant, especially a seawater power plant that is installed on the coast and replaces the reservoir with the ocean.

With the advancement of science and technology and the popularization of civilization, the daily energy consumption of human beings is increasing, making the development of energy resources a prerequisite for national development. Through the development of energy science and technology, the quality of human life and the driving force of national development can be effectively improved. .

The current way of obtaining energy, such as firepower, water, natural gas, solar cells, wind power, and nuclear energy, is a relatively common method, but in addition to water, solar cells, and wind power, the way of obtaining energy will cause greater pollution to the environment. .

In the way of obtaining energy such as water, solar cells, wind power, etc., the hydraulic power is the most stable and most convenient to apply, but it is necessary to build a reservoir and a large-scale substation. The overall construction cost is expensive and complicated; on the other hand, once encountered In the dry season of the river, there is a situation in which power generation cannot be generated; however, the ocean water source is endless but rarely used for power generation purposes.

In view of this, the creator has accumulated years of research and practical experience in related fields, and created a seawater power generation device to improve the lack of the above-mentioned conventional technology.

The main purpose of this creation is to provide a seawater power generation device that can generate electricity from a seawater supply device without relying on a man-made giant reservoir.

In order to achieve the above objective, the seawater power generation device of the present invention comprises a water inlet having a first water inlet end and a first water outlet end, and the first water inlet end is disposed below the sea level level to allow seawater to flow into the water inlet. The water inlet is inclined downwardly from the first water inlet end to the first water outlet end at a predetermined angle and is provided with at least one water wheel; the water inlet is connected to a hydropower module, and the hydropower module is located at a depth of about 400 to 500 meters. And a water outlet, one end of the waterway is combined with the hydropower module, and the other end of the water outlet discharges the seawater to the ground level. The water outlet can be extended step by step and is equipped with a waterwheel and a hoist to raise the seawater to the other end, or The diameter of the water outlet is tapered from one end of the hydroelectric module to the other end; the third water outlet can be directly discharged or connected to a marine aquaculture facility. This creation can be placed in a factory located underground.

In order to clarify and fully disclose the present invention, a preferred embodiment of the present invention will be described, and the detailed description thereof will be described later.

1‧‧‧Waterway

10‧‧‧First water inlet

11‧‧‧First water outlet

12‧‧‧First waterwheel

2‧‧‧Hydroelectric Module

20‧‧‧Second water inlet

21‧‧‧Second water outlet

22‧‧‧Hydroelectric unit

3‧‧‧Waterway

30‧‧‧ third water inlet

31‧‧‧ third water outlet

32‧‧‧First downslope

33‧‧‧Second waterwheel

34‧‧‧First ascending

341‧‧‧First winch

342‧‧‧Second hoist

35‧‧‧second falling section

351‧‧‧ Third waterwheel

36‧‧‧ second ascending

37‧‧‧ third rise

38‧‧‧Drive shaft

4‧‧‧Power facilities

5 ‧ ‧ ocean

6‧‧‧Factory

The first figure is a schematic diagram of an embodiment (1) of the present creation.

The second figure is a schematic diagram of the embodiment (2) of the present creation.

Referring to the first drawing, a schematic diagram of the creation embodiment (1) is disclosed. The embodiment (1) of the seawater power generation device of the present invention is illustrated by the above-mentioned drawings, and includes a water inlet 1 having a first water inlet end. 10 and a first water outlet end 11, the water inlet 1 is inclined downwardly from the first water inlet end 10 at a predetermined angle to the first water outlet end 11, and the water inlet channel 1 has a curve near the first water outlet end 11 The first water outlet end 11 is turned toward the ocean 5, and at least one first waterwheel 12 is disposed between the first water inlet end 10 and the first water outlet end 11; a hydropower module 2 having a second water inlet end 20 a hydroelectric power unit 22 and a second water outlet end 21, the second water inlet end 20 is coupled to the first water outlet end 11, and the hydropower module 2 is disposed at a depth of about 400 to 500 meters deep; a water outlet 3 comprising a first descending section 32, at least one first rising section 34, at least one second descending section 35, at least one second rising section 36 and a third rising section 37, the first descending section 32 One end is combined with the second water outlet end 21, the first descending section 32 is provided with a second water wheel 33, the other end of the first descending section 32 is combined with the first rising section 34, and the first rising section 34 is provided with a first winder 341, The second descending section 35 and the second rising section 36 are equal in number and combined into an upwardly extending stepped structure, the vertical height of the second descending section 35 descending is smaller than the vertical height of the rising of the second rising section 36, and the second descending section 35 is provided with a third The water wheel 351, the second rising section 36 is provided with a second hoisting device 342, the other end of the second rising section 36 is combined with the third rising section 37, the third rising section 37 is connected to the ground, and the second waterwheel 33 drives the first volume. The elevator 341, the first waterwheel 12 and the third waterwheel 351 jointly drive the second hoist 342; and a factory body 6, which is located underground, and the body 6 houses the water inlet 1, the hydropower module 2 and the water outlet 3, Plant 6 can be a levee facility on the coast.

The first water inlet end 10 is disposed below the sea level of the ocean 5, and the sea water can be introduced without external force, so there is no need for a separate water storage system such as a traditional reservoir, and the water inlet 1 can be provided with a filter screen (not drawn) or The sluice gate (not drawn); when the seawater needs to be drained after power generation, the first hoist 341 and the second hoist 342 discharge the seawater to the ground, and the seawater will not be poured back into the hydropower module 2, and the displacement is also visible. After the demand increases the number of the water outlets 3 or connects the first descending section 32 to the plurality of first rising sections 34, a plurality of subsequent pipes, waterwheels and hoists are connected to increase the displacement.

The third ascending section 37 can directly drain seawater or be connected to a marine aquaculture facility (not drawn) to increase economic benefits; the hydropower module 2 can be directly connected to a power facility 4 for storage or substation output.

The second figure is an embodiment (2) of the present invention, comprising a water inlet 1 having a first water inlet end 10 and a first water outlet end 11, the water inlet 1 being directed by the first water inlet end 10 at a predetermined angle The lower slope extends to the first water outlet end 11, and the water inlet 1 can have a curve near the first water outlet end 11 to turn the first water outlet end 11 toward the ocean 5; a hydroelectric power module 2 having a second water inlet end 20, a hydroelectric power unit 22 and a second water outlet end 21, the second water inlet end 20 being coupled to the first water outlet end 11; a water outlet 3 comprising a third water inlet end 30 and a third water outlet end 31, the water outlet 3 is inclined upwardly from the third water inlet end 30 at a predetermined angle to the third water outlet end 31, and the diameter of the water outlet channel 3 is from the third water inlet end. 30 to the third water outlet end 31 are tapered; and a plant body 6, which is located underground, the plant body 6 accommodates the water inlet 1, the hydropower module 2 and the water outlet 3, and the plant body 6 can be a coastal side embankment facility. Embodiment (2) Instead of using a waterwheel and a hoist to discharge seawater, the diameter of the water outlet 3 is tapered to enhance the water pressure of the drainage so that the seawater can be smoothly discharged.

However, the above descriptions are only preferred embodiments of the present invention. When it is not possible to limit the scope of the creation of the creation, the changes and modifications that can be made by those who are familiar with the industry should be regarded as not deviating. The substance of this creation.

Claims (12)

A seawater power generation device comprising: a water inlet having a first water inlet end and a first water outlet end, the water inlet pipe extending downward from the first water inlet end at a predetermined angle to the first water outlet end, At least one first waterwheel is disposed between the first water inlet end and the first water outlet end; a hydroelectric power generation module having a second water inlet end, a hydropower generating unit and a second water outlet end, the second inlet The water end is coupled to the first water outlet end; the water outlet comprises a first descending section, at least one first rising section, at least one second descending section, at least one second rising section and a third rising section, One end of the first descending section is coupled to the second water outlet end, the first descending section is provided with a second water wheel, the other end of the first descending section is combined with the first rising section, and the first rising section is provided with a first winder The second descending segment is equal in number to the second rising segment and combined into an upwardly extending stepped structure, the vertical height of the second descending section falling is smaller than the vertical height of the rising of the second rising section, and the second descending section is provided with a a third waterwheel, the second rising section is provided a second hoist, the other end of the second rising section is coupled to the third rising section, the third rising section is connected to the ground, and the second water wheel drives the first hoist, the first waterwheel and the first The third waterwheel drives the second hoist together; and a factory body is located underground, the plant body houses the water inlet, the hydroelectric power module and the water outlet. The seawater power generation device according to claim 1, wherein the first water inlet end is disposed below a sea level. The seawater power generation device of claim 1, wherein the water inlet has a curve before the hydropower module is coupled to the first water outlet toward the ocean. The seawater power generation device according to claim 1, wherein the water inlet is provided with a sieve. The seawater power generation device according to claim 1, wherein the water inlet is provided with a water inlet gate. The seawater power generation device of claim 1, wherein the third rising section is connected to a marine aquaculture facility. A seawater power generation device comprising: a water inlet having a first water inlet end and a first water outlet end, the water inlet pipe extending downward from the first water inlet end at a predetermined angle to the first water outlet end; The hydroelectric power module has a second water inlet end, a hydroelectric power unit and a second water outlet end, the second water inlet end is coupled to the first water outlet end; and a water outlet channel includes a third water inlet end And a third water outlet end, the water outlet is inclined upwardly from the third water inlet end at a predetermined angle to the third water outlet end, and the diameter of the water outlet channel is tapered from the third water inlet end to the third water outlet end And a factory body located underground, the plant body housing the water inlet, the hydroelectric power module and the water outlet. The seawater power generation device of claim 7, wherein the first water inlet end is disposed below a sea level. The seawater power generation device of claim 7, wherein the water inlet has a curve before the hydropower module is coupled to the first water outlet end toward the ocean. The seawater power generation device according to claim 7, wherein the water inlet is provided with a sieve. The seawater power generation device according to claim 7, wherein the water inlet is provided with a water inlet gate. The seawater power generation device according to claim 7, wherein the third water outlet is connected to a marine aquaculture facility.